TY - GEN
T1 - Surface reconstruction from three-dimensional segmentations using implicit functions
AU - Gomez-Mora, Miller
AU - Florez-Valencia, Leonardo
N1 - Publisher Copyright:
© 2015 IEEE.
PY - 2015/11/20
Y1 - 2015/11/20
N2 - Real-world object modeling is a crucial part of computer graphics, with findings of great importance for many applications in areas of computer assisted design, manufacturing and engineering. However, geometric modeling of such objects proves quite challenging, especially when complex volumetric structures are involved as in the case of biological anatomy. In this paper, we present a method for the 3-D modeling of human organs based on an implicit representation approach. The principal idea consists of sampling the region of interest from three-dimensional labeled images and implicitly reconstructing its surface using an algorithm based on the Poisson surface reconstruction method. From there, either a surface mesh or a 3-D mesh is adjusted to the implicit surface, which is given by the zero level set of a function f(x) = 0. This is done to allow not only the visualization but physically-based simulations. As far as assessment of the new method is concerned, we used the Dice Similarity Coefficient, and the Hausdorff Distance to evaluate accuracy.
AB - Real-world object modeling is a crucial part of computer graphics, with findings of great importance for many applications in areas of computer assisted design, manufacturing and engineering. However, geometric modeling of such objects proves quite challenging, especially when complex volumetric structures are involved as in the case of biological anatomy. In this paper, we present a method for the 3-D modeling of human organs based on an implicit representation approach. The principal idea consists of sampling the region of interest from three-dimensional labeled images and implicitly reconstructing its surface using an algorithm based on the Poisson surface reconstruction method. From there, either a surface mesh or a 3-D mesh is adjusted to the implicit surface, which is given by the zero level set of a function f(x) = 0. This is done to allow not only the visualization but physically-based simulations. As far as assessment of the new method is concerned, we used the Dice Similarity Coefficient, and the Hausdorff Distance to evaluate accuracy.
KW - Object modeling
KW - implicit functions
KW - mesh generation
KW - surface reconstruction
UR - https://www.scopus.com/pages/publications/84963829126
U2 - 10.1109/ColumbianCC.2015.7333440
DO - 10.1109/ColumbianCC.2015.7333440
M3 - Conference contribution
AN - SCOPUS:84963829126
T3 - 2015 10th Colombian Computing Conference, 10CCC 2015
SP - 317
EP - 323
BT - 2015 10th Colombian Computing Conference, 10CCC 2015
A2 - Gonzalez, Oscar
A2 - Sanchez, Mario
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 10th Colombian Computing Conference, 10CCC 2015
Y2 - 21 September 2015 through 25 September 2015
ER -